HED - PFS-CL450-A1 · 2016. 9. 19. · PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification...
Transcript of HED - PFS-CL450-A1 · 2016. 9. 19. · PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification...
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CL-450 Product Family Specification
PFS-CL450-A1
7/23/2014
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HED® Inc.
2120 Constitution Avenue
Hartford, WI 53027 USA
Telephone: (800) 398-2224
Fax: (262) 673-9455
Email: [email protected]
Web: www.hedonline.com
Copyright 2014 © HED® Inc.
All rights reserved. This material may not be
reproduced, published, displayed, modified, or
distributed in any form or by any means, or
stored in a database retrieval system, without the
express prior written permission of HED® Inc.
USER LIABILITY
The OEM of a machine or vehicle in which HED® electronic controls are
installed is fully responsible for all consequences that might occur. HED®,
and any authorized distributor, has no responsibility for any consequences,
direct or indirect, caused by failures or malfunctions. Failure or improper
selection or improper use of HED® products can cause death, personal
injury and property damage.
The OEM must analyze all aspects of their application and review the
information concerning product or system in the current product
documentation. Due to the variety of operating conditions and applications
for these products or systems, the user, through its own analysis and
testing, is solely responsible for making the final selection of the products
and systems and assuring that all performance, safety and warning
requirements of the application are met.
The products described herein, including without limitation, product
features, specifications, designs, availability and pricing, are subject to
change by HED® at any time without notice.
USING THIS DOCUMENT
The specifications contained herein represent all possible configurations for
this product family. The actual configurations available on each module
may be a subset of this specification. Please refer to the module-specific
datasheet for the connector pinout and configurations that are available.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 3 of 17
INPUT STB (PINS A15-A18, B11, B15-B18, C07-C08, C11, C15-C18, D08, D11, D15-D18, E07-E08)
Input Resistance
2.6KΩ (typical) Input Current
3.1mA at 8V (typical)
12.2mA at 32V (typical) Parallel Resistance
2KΩ at 8V (minimum)
16KΩ at 32V (minimum) Series Resistance
220Ω (maximum)
Input
CapacitanceFiltering
MCU
Internal to Module
Application Switch
Voltage Clamp
Pull-down
Resistance
BAT+
3.01KΩ
10KΩ
10KΩ68nF
1KΩ
0.22µF
RETURN(-) OUTPUTS (PINS A12, B12, C12, D12)
Current Sense Range
0A to 3.84A (minimum)
0A to 3.95A (typical) Resolution
12 Bits
0.96mA / count (typical) Hardware Current Limit / Trip Point
4.40A (minimum)
5.18A (typical)
5.78A (maximum) Accuracy1
±10mA at 0.7A (TA = 25°C)
±20mA at 0.7A (TA = full range)
±20mA at 2A (TA = 25°C)
±30mA at 2A (TA = full range)
Input
CapacitanceFiltering MCU
Internal to Module
Amplifier
Current
Sense
0.08Ω1nF
1.2KΩ
10nF
Short-Circuit
Protection
Transient
Suppression
Sourcing
Output
Application
Load
1 Return(-) Output accuracy is estimated using datasheet maximums and a weighted average of worst-case and root-sum-square (RSS) methods.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 4 of 17
INPUT DUAL RANGE VTD (VTD1 = 0–6.06VDC / VTD2 = 0–14.13VDC) (PINS E01-E04) Dual Range (VTD) Mode (0 – 6.06VDC)
Application Sensor Input
CapacitanceFiltering
MCU
Internal to Module
Voltage Clamp
and Buffering
Voltage Scaling
10KΩ
47KΩ68nF
1KΩ
0.22µF
Input Voltage Range
0V to 6.00V (minimum)
0V to 6.06V (typical) Input Resistance
57KΩ (typical) Resolution
12 Bits
1.48mV / count (typical) Accuracy1
±1.0% (TA = 25°C)
±2.0% (TA = full range)
Dual Range (VTD) Mode (0 – 14.13VDC)
Application Sensor Input
CapacitanceFiltering
MCU
Internal to Module
Voltage Clamp
and Buffering
Voltage Scaling
10KΩ
5.5KΩ68nF
1KΩ
0.22µF
Input Voltage Range
0V to 13.90V (minimum)
0V to 14.13V (typical) Input Resistance
15.5KΩ (typical) Resolution
12 Bits
3.45mV / count (typical) Accuracy1
±1.0% (TA = 25°C)
±2.0% (TA = full range)
1 VTD accuracy is estimated using datasheet maximums and a weighted average of worst-case and root-sum-square (RSS) methods. It is considered as a percentage of the full-
scale input voltage range.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 5 of 17
INPUT DUAL RANGE VTD (VTD1 = 0-6.00VDC / VTD2 = 0-39.33VDC) (PINS E01-E04) Voltage-to-Digital (VTD) Mode (0 – 6.00VDC)
Application Sensor Input
CapacitanceFiltering
MCU
Internal to Module
Voltage Clamp
and Buffering
Voltage Scaling
20KΩ
100KΩ68nF
1KΩ
0.22µF
Input Voltage Range
0V to 5.93V (minimum)
0V to 6.00V (typical) Input Resistance
120KΩ (typical) Resolution
12 Bits
1.46mV / count (typical) Accuracy1
±1.0% (TA = 25°C)
±2.0% (TA = full range)
Voltage-to-Digital (VTD) Mode (0 – 39.33VDC)
Application Sensor Input
CapacitanceFiltering
MCU
Internal to Module
Voltage Clamp
and Buffering
Voltage Scaling
20KΩ
2.9KΩ68nF
1KΩ
0.22µF
Input Voltage Range
0V to 38.91V (minimum)
0V to 39.33V (typical) Input Resistance
22.9KΩ (typical) Resolution
12 Bits
9.60mV / count (typical) Accuracy1
±1.0% (TA = 25°C)
±2.0% (TA = full range)
1 VTD accuracy is estimated using datasheet maximums and a weighted average of worst-case and root-sum-square (RSS) methods. It is considered as a percentage of the full-
scale input voltage range.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 6 of 17
INPUT STB/STG/VTD/RTD/4-20mA (PINS E09–E10, E13–E14, E16-E17) 1
INPUT STB or 4-20mA/STG/VTD/FREQ/PWM/ENCODER (PINS E11-E12, E15, E18)1
Switch-to-Battery (STB) Mode
Input
CapacitanceFiltering
MCU
Internal to Module
Application Switch
Voltage Clamp
Pull-down
Resistance
BAT+
3.01KΩ
10KΩ
10KΩ
68nF
or
100pF
1KΩ
0.22µF
Input Resistance
2.6KΩ (typical) Input Current
3.1mA at 8V (typical)
12.2mA at 32V (typical) Parallel Resistance
2KΩ at 8V (minimum)
16KΩ at 32V (minimum) Series Resistance
220Ω (maximum)
Switch-to-Ground (STG) Mode
Input
CapacitanceFiltering
MCU
Internal to Module
Application Switch
Voltage Clamp
Pull-up
Resistance
560Ω
68nF
or
100pF
1KΩ
0.22µF
+5V
NOTE:
Resistor is
pulled up to
5V through
a rectifier
diode.
10KΩ
Pull-up Resistance
560Ω (typical) Input Current
7.6mA at 0V (typical) Parallel Resistance
2KΩ at 0V (minimum) Series Resistance
220Ω (maximum)
1 Pins E09-E10, E13-E14, and E16-E17 have input capacitance of 68nF. Pins E11-E12, E15, and E18 have input capacitance of 100pF.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 7 of 17
INPUT STB/STG/VTD/RTD/4-20mA (PINS E09–E10, E13–E14, E16-E17) 1
INPUT STB or 4-20mA/STG/VTD/FREQ/PWM/ENCODER (PINS E11-E12, E15, E18)1 Voltage-to-Digital (VTD) Mode (0 – 6.06VDC)
Application Sensor Input
CapacitanceFiltering
MCU
Internal to Module
Voltage Clamp
and Buffering
Voltage Scaling
10KΩ
47KΩ
68nF
or
100pF
1KΩ
0.22µF
Input Voltage Range
0V to 6.00V (minimum)
0V to 6.06V (typical) Input Resistance
53.9KΩ (typical) Resolution
12 Bits
1.48mV / count (typical) Accuracy2
±1.0% (TA = 25°C)
±2.0% (TA = full range)
1 Pins E09-E10, E13-E14, and E16-E17 have input capacitance of 68nF. Pins E11-E12, E15, and E18 have input capacitance of 100pF.
2 VTD accuracy is estimated using datasheet maximums and a weighted average of worst-case and root-sum-square (RSS) methods. It is considered as a percentage of the full-
scale input voltage range.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 8 of 17
INPUT STB/STG/VTD/RTD/4-20mA (PINS E09–E10, E13–E14, E16-E17) 1
INPUT STB or 4-20mA/STG/VTD/FREQ/PWM/ENCODER (PINS E11-E12, E15, E18)1 4-20mA Current Input Mode
Application Sensor Input
CapacitanceFiltering
MCU
Internal to Module
Voltage Clamp
and Buffering
Current
Sense
10KΩ
201.3Ω
68nF
or
100pF
1KΩ
0.22µF
Input Current Range
0mA to 24.0mA (minimum)
0mA to 24.84mA (typical) Input Resistance
201.3Ω (typical) Resolution
12 Bits
6.06µA / count (typical) Accuracy2
±2.0% (TA = 25°C)
±5.0% (TA = full range)
Frequency / PWM / Encoder Mode
Application Sensor
Input
CapacitanceFiltering
MCU
Internal to Module
Pull-up
Resistance
4.7KΩ
100pF
10KΩ
100pF
+5V
NOTE:
Resistor is
pulled up to
5V through a
rectifier diode.
Voltage
Clamp
Schmitt Trigger
Pull-up Resistance
4.7KΩ (typical) Positive Going Threshold
> 3.5V Negative Going Threshold
< 1.0V Frequency Range
10KHz (maximum) 3 Resolution
< 5 Hz Accuracy
±2.0% (TA = full range)
1 Pins E09-E10, E13-E14, and E16-E17 have input capacitance of 68nF. Pins E11-E12, E15, and E18 have input capacitance of 100pF.
2 4-20mA input accuracy is estimated using datasheet maximums and a weighted average of worst-case and root-sum-square (RSS) methods. It is considered as a percentage of
the full-scale input current range. 3 Frequency range maximum assumes square wave, open-drain, sinking sensor at 50% duty cycle.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 9 of 17
INPUT STB/STG/VTD/RTD/4-20mA (PINS E09–E10, E13–E14, E16-E17) 1
INPUT STB or 4-20mA/STG/VTD/FREQ/PWM/ENCODER (PINS E11-E12, E15, E18)1 Resistance-to-Digital (RTD) Mode (0 – 500Ω)
Application Sensor
Input
CapacitanceFiltering
MCU
Internal to Module
Voltage Clamp
and Buffering
Voltage Scaling
10KΩ
47KΩ68nF
1KΩ
0.22µF
Pull-up
Resistance
RPULL-UP
+5V
Voltage Scaling
10KΩ
47KΩ
Filtering
Voltage Clamp
and Buffering
1KΩ
0.22µF
Pull-up Resistance (RPULL-UP)
499Ω (typical) Accuracy2
±2.0% (TA = 25°C)
±5.0% (TA = full range)
Resistance-to-Digital (RTD) Mode (0 – 2KΩ)
Pull-up Resistance (RPULL-UP)
2KΩ (typical) Accuracy2
±2.0% (TA = 25°C)
±5.0% (TA = full range)
1 Pins E09-E10, E13-E14, and E16-E17 have input capacitance of 68nF. Pins E11-E12, E15, and E18 have input capacitance of 100pF.
2 RTD accuracy is estimated using datasheet maximums and a weighted average of worst-case and root-sum-square (RSS) methods. It is considered as a percentage of the full-
scale input resistance range.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 10 of 17
5VDC SENSOR SUPPLY (PIN E05) AND SENSOR GROUND (PIN E06) 5VDC Sensor Supply Mode
MCU
Internal to Module
Input
CapacitanceFiltering
Voltage
Clamp
and
Buffering
Voltage Scaling
10KΩ
47KΩ68nF
1KΩ
0.22µF
Resettable
Fuse
5V Sensor Supply
with Current Limit
Short to Battery
Protection
To VTD
Input
Application
Sensor
5V Sensor Supply
5V Sensor Ground
Analog Monitoring Circuit
Input
CapacitanceFiltering
Voltage
Clamp
and
Buffering
Voltage Scaling
10KΩ
47KΩ68nF
1KΩ
0.22µF
Analog Monitoring Circuit
Voltage Range
5V ± 4% Current Rating
250mA Current Limit
255mA (minimum)
292mA (typical)
355mA (maximum)
Analog Monitoring Circuit
Resolution
12 Bits
1.48mV / count (typical) Accuracy
See Section Input – VTD Mode (0-6.06V Range)
5VDC Sensor Ground Mode
Current Rating
250mA
Analog Monitoring Circuit
Resolution
12 Bits
1.48mV / count (typical) Accuracy
See Section Input – VTD Mode (0-6.06V Range)
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 11 of 17
CAN COMMUNICATION (PINS A07/A08, B07/B08, C07/C08)
Baud Rate
40kbps to 500kbps Maximum Allowable Voltage1
-58V to +58V Input Capacitance (maximum)
62pF (f = 1MHz) No Internal Termination
ESD Suppressors
Input Capacitors
MCU
Internal to Module
CAN Transceiver
External
CAN
Termination
CAN-H
CAN-L
1 Maximum allowable voltage defines the voltage extremes that the transceiver can tolerate. Exposure to these voltages for extended periods may affect device reliability.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 12 of 17
INPUT STB/STG (PINS A01-A04, A09-A10, A13-A14, B01-B04, B09-B10, B13-B14,
C01-C04, C09-C10, C13-C14, D01-D04, D07, D09-D10, D13-D14) Switch-to-Battery (STB) Mode
Input
CapacitanceFiltering
MCU
Internal to Module
Application Switch
Voltage Clamp
Pull-down
Resistance
BAT+
3.01KΩ
10KΩ
10KΩ68nF
1KΩ
0.22µF
Input Resistance
2.6KΩ (typical) Input Current
3.1mA at 8V (typical)
12.2mA at 32V (typical) Parallel Resistance
2KΩ at 8V (minimum)
16KΩ at 32V (minimum) Series Resistance
220Ω (maximum)
Switch-to-Ground (STG) Mode
Input
CapacitanceFiltering
MCU
Internal to Module
Application Switch
Voltage Clamp
Pull-up
Resistance
560Ω
68nF
1KΩ
0.22µF
+5V
NOTE:
Resistor is
pulled up to
5V through
a rectifier
diode.
5.65KΩ
Pull-up Resistance
560Ω (typical) Input Current
7.6mA at 0V (typical) Parallel Resistance
2KΩ at 0V (minimum) Series Resistance
220Ω (maximum)
IMPORTANT NOTES: 1) On modules where Input STB and Output modes are software configurable and Input STB mode is chosen, the input voltage must remain at or below the
main battery voltage on Pin A06 (for Connector A inputs), Pin B06 (for Connector B inputs), Pin C06 (for Connector C inputs), and Pin D06 (for Connector D inputs) of the module. Otherwise, the input voltage can back feed through the output FET and may source current to the outputs from the STB input instead of Pin A06/B06/C06/D06, potentially causing damage to the application switch and/or module.
2) Pins A01/A02/A13/A14, B01/B02/B13/B14, C01/C02/C13/C14, and D01/D02/D13/D14 can be software configured in banks of four pins as outputs, STB inputs, or STG inputs; however, all pins within each bank must have the same I/O type chosen as 4 outputs, 4 STB inputs, or 4 STG inputs.
3) Pins A03/A04/A09/A10/B03/B04/B09/B10/C03/C04/C09/C10/D03/D04/D07/D09/D10 can be software configured in a bank of 17 pins as outputs, STB inputs, or STG inputs; however, all 17 pins must have the same I/O type chosen as 17 outputs, 17 STB inputs, or 17 STG inputs.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 13 of 17
OUTPUT DOUT(+)/PWM(+)/ECC(+)
(PINS A01-A04, A09-A10, A13-A14, B01-B04, B09-B10, B13-B14, C01-C04, C09-C10, C13-C14)
Individual Output Current1
Digital Mode = 3.0A (maximum)
PWM Mode = 3.0A (maximum) Grouped Output Current2,3,4
Digital Mode = 2.5A (maximum)
PWM Mode = 2.0A (maximum) PWM Frequency5
< 300 Hz (typical)
< 1 KHz (maximum) Output Diagnostics
Short to Battery
Short to Ground
Overcurrent
Open Circuit6 Current Sense Range
Up to 4.0A (minimum)
Up to 4.8A (typical) Current Sense Resolution
10 bits
4.7mA / count (typical) Calibrated Current Sense Accuracy (typ)
< 50mA at 2A, TA = 25°C Internal Flyback Diodes
MCU
Internal to Module
Quad
Output
FET
On/Off or PWM
Current
Sense
Output
Reverse
Polarity
Protection
Output
Output
Output
Application Loads
NOTE: Each output pin also has diagnostic feedback
circuitry as shown in the input sections (STB mode and
STG mode) for Pins A01-A04, A09-A10, A13-A14, B01-
B04, B09-B10, B13-B14, C01-C04, C09-C10, and C13-14.
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
Quad
Output
FET
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
Output
Output
Output
Output
BAT+
1 Individual Output Current specifies the maximum current for an individual output channel. Additional restrictions regarding total output current, number of active channels,
etc. will apply and are specified in the Grouped Output Current parameter. PWM outputs assume 250Hz frequency. 2 Output current is constrained in groups of four pins (quad output FET). Pin groups are A01/A02/A13/A14, A03/A04/A09/A10, B01/B02/B13/B14, B03/B04/B09/B10,
C01/C02/C13/C14, and C03/C04/C09/C10. It is strongly recommended to level the total output current across each of the groups for best thermal performance. 3 Output current maximums assume all four channels in the group are active simultaneously and the module is at maximum ambient temperature. PWM outputs assume 250Hz
frequency. Output current may be increased per channel (up to the individual output current maximum) if not all channels are active simultaneously or other channels are at a reduced load current. Please contact HED® for further information. 4 Maximum total output current for Connector A, Connector B, and Connector C outputs is 12.5 Amps per connector.
5 The output driver is best suited for PWM frequencies of 300 Hz or less. PWM frequencies of up to 1 KHz are possible, but at reduced output current and duty cycle range.
6 Open circuit can be detected when the output is active using current sense feedback for load currents of at least 250mA and duty cycle of 100%. Open circuit can be detected
when the output is inactive using the pull-up resistor for loads that are not influenced by the associated pull-up current (see Input STG mode circuit diagram and parameters).
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 14 of 17
OUTPUT DOUT(+)/PWM(+)/ECC(+) (PINS D01-D04, D07, D09-D10, D13-D14)
Individual Output Current1
Digital Mode = 3.0A (maximum)
PWM Mode = 3.0A (maximum) Grouped Output Current2,3,4
Digital Mode = 2.5A (maximum)
PWM Mode = 2.0A (maximum) PWM Frequency5
< 300 Hz (typical)
< 1 KHz (maximum) Output Diagnostics
Short to Battery
Short to Ground
Overcurrent
Open Circuit6 Current Sense Range
Up to 4.0A (minimum)
Up to 4.8A (typical) Current Sense Resolution
10 bits
4.7mA / count (typical) Calibrated Current Sense Accuracy (typ)
< 50mA at 2A, TA = 25°C Internal Flyback Diodes
MCU
Internal to Module
Quad
Output
FET
On/Off or PWM
Current
Sense
Output
Reverse
Polarity
Protection
Output
Output
Output
Application
LoadsNOTE: Each output pin also has diagnostic feedback
circuitry as shown in the input sections (STB mode and
STG mode) for Pins D01-D04, D07, D09-D10, and D13-D14.
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
Quad
Output
FET
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
On/Off or PWM
Current
Sense
Output
Output
Output
Output
BAT+
Single
Output
FET
OutputOn/Off or PWM
Current
Sense
1 Individual Output Current specifies the maximum current for an individual output channel. Additional restrictions regarding total output current, number of active channels,
etc. will apply and are specified in the Grouped Output Current parameter. PWM outputs assume 250Hz frequency. 2 Output current is constrained in groups of four pins (quad output FET). Pin groups are D01/D02/D13/D14 and D03/D04/D09/D10. It is strongly recommended to level the total
output current across each of the groups for best thermal performance. Pin D07 is sourced by a single output FET which can support up to the individual output current limits. 3 Output current maximums assume all four channels in the group are active simultaneously and the module is at maximum ambient temperature. PWM outputs assume 250Hz
frequency. Output current may be increased per channel (up to the individual output current maximum) if not all channels are active simultaneously or other channels are at a reduced load current. Please contact HED® for further information. 4 Maximum total output current for Connector D outputs is 12.5 Amps.
5 The output driver is best suited for PWM frequencies of 300 Hz or less. PWM frequencies of up to 1 KHz are possible, but at reduced output current and duty cycle range.
6 Open circuit can be detected when the output is active using current sense feedback for load currents of at least 250mA and duty cycle of 100%. Open circuit can be detected
when the output is inactive using the pull-up resistor for loads that are not influenced by the associated pull-up current (see Input STG mode circuit diagram and parameters).
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 15 of 17
SWITCHED BATTERY (+) / KEYSWITCH (PIN A11) Switched Battery (+) (Pin A11)
Internal to Module
Input
CapacitanceFiltering
Voltage
Clamp
Voltage Scaling
68KΩ
10KΩ68nF
1KΩ
0.22µF
Transient
Protection
Analog Monitoring Circuit
MCU
+
Keyswitch
(Ignition)
Vehicle
Battery
Board Regualtor
Enable CircuitryMCU
Keep Alive
Operating Voltage Range
8VDC – 32VDC Maximum Continuous Voltage1
36VDC Maximum Transient Voltage
See test section of datasheet Keyswitch Function
Input transition from inactive to active will activate module
Input transition from active to inactive will begin controlled shutdown sequence (if applicable) and de-activate module
Analog Monitoring Circuit
Input Voltage Range
0V to 38.4V (minimum)
0V to 39.0V (typical) Input Resistance
72.4KΩ (typical) Resolution
12 Bits
9.52mV / count (typical) Accuracy1
±1.0% (TA = 25°C)
±2.0% (TA = full range)
1 Exposure to maximum voltages for extended periods may affect device reliability.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 16 of 17
BATTERY (+) MODULE AND OUTPUTS (PINS A06, B06, C06, D06)1,2
Operating Voltage Range
8VDC – 32VDC Maximum Continuous Voltage3
36VDC Maximum Transient Voltage
See test section of datasheet Module Current Draw – Running4
180mA at 8V (typ)
88mA at 32V (typ) Module Current Draw – Low Power Mode 5
TBD µA at 8V (typ)
TBD µA at 32V (typ) Maximum Total Output Current
See Output Section for output current constraints
Internal to Module
Input
Capacitance
68nF
Transient
Protection
To Board Regulator
+Vehicle
Battery
Pin A06
Pin A05
To Connector B OutputsPin B06
Pin B05
To Connector A Outputs
Input capacitance and
transient protection
equivalent to Pin A06
To Connector C OutputsPin C06
Input capacitance and
transient protection
equivalent to Pin A06
To Connector D OutputsPin D06
Input capacitance and
transient protection
equivalent to Pin A06
Pin C05
Pin D05
1 Pin A06 provides power to module and Connector A outputs. Pin B06 provides power to Connector B outputs only. Pin C06 provides power to Connector C outputs only. Pin
D06 provides power to Connector D outputs only. 2 Pins A05, B05, C05, and D05 must be connected at a single point to Battery (-).
3 Exposure to maximum voltages for extended periods may affect device reliability.
4 Module current draw is measured with I/O inactive, no CAN communication, 5V sensor supply inactive, and keyswitch (Pin A11) active.
5 Module current draw is measured with I/O inactive, no CAN communication, 5V sensor supply inactive, and keyswitch (Pin A11) inactive.
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PFS-CL450-A1 (7/23/2014) CL-450 Product Family Specification Page 17 of 17
REVISION HISTORY Revision Date EC # Changes
A1 7/23/14 314-307 Initial Release. Items in yellow identify general market design targets requiring specific board configuration or firmware feature support to complete remaining verification testing.